Abstract
Stroke is the most common cause of acquired epilepsy, with up to 30 percent of stroke survivors developing epilepsy over time. However, the mechanisms leading to neuronal hyperexcitability and epilepsy in stroke survivors are not fully understood. In a recently published work, we demonstrate that ischemic stroke induces homeostatic plasticity regulation in the surviving neurons in the peri-stroke area. Furthermore, activity enhancement through optogenetic stimulation of excitatory pyramidal neurons in the peri-stroke area or systemic administration of D-cycloserine, a partial N-methyl-D-aspartate (NMDA) receptor agonist, reduces seizure susceptibility in mice. Here, we briefly review current understanding on the role of homeostatic plasticity in post-stroke epileptogenesis and discuss how homeostatic plasticity could be targeted to prevent post-stroke epilepsy. We comment on our activity enhancement findings and close by discussing implications for clinical treatment.
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